"""Test the Energy sensors."""

import copy
from datetime import timedelta
from typing import Any

from freezegun.api import FrozenDateTimeFactory
import pytest

from homeassistant.components.energy import data
from homeassistant.components.recorder.core import Recorder
from homeassistant.components.recorder.util import session_scope
from homeassistant.components.sensor import (
    ATTR_LAST_RESET,
    ATTR_STATE_CLASS,
    SensorDeviceClass,
    SensorStateClass,
)
from homeassistant.components.sensor.recorder import compile_statistics
from homeassistant.const import (
    ATTR_DEVICE_CLASS,
    ATTR_UNIT_OF_MEASUREMENT,
    STATE_UNKNOWN,
    UnitOfEnergy,
    UnitOfVolume,
)
from homeassistant.core import HomeAssistant
from homeassistant.helpers import entity_registry as er
from homeassistant.setup import async_setup_component
import homeassistant.util.dt as dt_util
from homeassistant.util.unit_system import METRIC_SYSTEM, US_CUSTOMARY_SYSTEM

from tests.components.recorder.common import async_wait_recording_done
from tests.typing import WebSocketGenerator

TEST_TIME_ADVANCE_INTERVAL = timedelta(milliseconds=10)


@pytest.fixture
async def setup_integration(recorder_mock: Recorder):
    """Set up the integration."""

    async def setup_integration(hass):
        assert await async_setup_component(hass, "energy", {})
        await hass.async_block_till_done()

    return setup_integration


@pytest.fixture(autouse=True)
def frozen_time(freezer: FrozenDateTimeFactory) -> FrozenDateTimeFactory:
    """Freeze clock for tests."""
    freezer.move_to("2022-04-19 07:53:05")
    return freezer


def get_statistics_for_entity(statistics_results, entity_id):
    """Get statistics for a certain entity, or None if there is none."""
    for statistics_result in statistics_results:
        if statistics_result["meta"]["statistic_id"] == entity_id:
            return statistics_result
    return None


async def test_cost_sensor_no_states(
    setup_integration, hass: HomeAssistant, hass_storage: dict[str, Any]
) -> None:
    """Test sensors are created."""
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "foo",
                    "stat_cost": None,
                    "entity_energy_price": "bar",
                    "number_energy_price": None,
                }
            ],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }
    await setup_integration(hass)
    # pylint: disable-next=fixme
    # TODO: No states, should the cost entity refuse to setup?


async def test_cost_sensor_attributes(
    setup_integration,
    hass: HomeAssistant,
    entity_registry: er.EntityRegistry,
    hass_storage: dict[str, Any],
) -> None:
    """Test sensor attributes."""
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": None,
                    "number_energy_price": 1,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }
    await setup_integration(hass)

    cost_sensor_entity_id = "sensor.energy_consumption_cost"
    entry = entity_registry.async_get(cost_sensor_entity_id)
    assert entry.entity_category is None
    assert entry.disabled_by is None
    assert entry.hidden_by == er.RegistryEntryHider.INTEGRATION


@pytest.mark.parametrize(
    ("initial_energy", "initial_cost"), [(0, "0.0"), (None, "unknown")]
)
@pytest.mark.parametrize(
    ("price_entity", "fixed_price"), [("sensor.energy_price", None), (None, 1)]
)
@pytest.mark.parametrize(
    ("usage_sensor_entity_id", "cost_sensor_entity_id", "flow_type"),
    [
        ("sensor.energy_consumption", "sensor.energy_consumption_cost", "flow_from"),
        (
            "sensor.energy_production",
            "sensor.energy_production_compensation",
            "flow_to",
        ),
    ],
)
async def test_cost_sensor_price_entity_total_increasing(
    frozen_time,
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    hass_ws_client: WebSocketGenerator,
    entity_registry: er.EntityRegistry,
    initial_energy,
    initial_cost,
    price_entity,
    fixed_price,
    usage_sensor_entity_id,
    cost_sensor_entity_id,
    flow_type,
) -> None:
    """Test energy cost price from total_increasing type sensor entity."""

    def _compile_statistics(_):
        with session_scope(hass=hass) as session:
            return compile_statistics(
                hass, session, now, now + timedelta(seconds=1)
            ).platform_stats

    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }

    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_from"
            else [],
            "flow_to": [
                {
                    "stat_energy_to": "sensor.energy_production",
                    "stat_compensation": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_to"
            else [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    now = dt_util.utcnow()
    last_reset_cost_sensor = now.isoformat()

    # Optionally initialize dependent entities
    if initial_energy is not None:
        hass.states.async_set(
            usage_sensor_entity_id,
            initial_energy,
            energy_attributes,
        )
    hass.states.async_set("sensor.energy_price", "1")

    await setup_integration(hass)

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == initial_cost
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    if initial_cost != "unknown":
        assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    # Optional late setup of dependent entities
    if initial_energy is None:
        hass.states.async_set(
            usage_sensor_entity_id,
            "0",
            energy_attributes,
        )
        await hass.async_block_till_done()

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "0.0"
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    entry = entity_registry.async_get(cost_sensor_entity_id)
    assert entry
    postfix = "cost" if flow_type == "flow_from" else "compensation"
    assert entry.unique_id == f"{usage_sensor_entity_id}_grid_{postfix}"
    assert entry.hidden_by is er.RegistryEntryHider.INTEGRATION

    # Energy use bumped to 10 kWh
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "10",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 0 EUR + (10-0) kWh * 1 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Nothing happens when price changes
    if price_entity is not None:
        hass.states.async_set(price_entity, "2")
        await hass.async_block_till_done()
    else:
        energy_data = copy.deepcopy(energy_data)
        energy_data["energy_sources"][0][flow_type][0]["number_energy_price"] = 2
        client = await hass_ws_client(hass)
        await client.send_json({"id": 5, "type": "energy/save_prefs", **energy_data})
        msg = await client.receive_json()
        assert msg["success"]
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 10 EUR + (10-10) kWh * 2 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Additional consumption is using the new price
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14.5",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "19.0"  # 10 EUR + (14.5-10) kWh * 2 EUR/kWh = 19 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 19.0

    # Energy sensor has a small dip, no reset should be detected
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "18.0"  # 19 EUR + (14-14.5) kWh * 2 EUR/kWh = 18 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Energy sensor is reset, with initial state at 4kWh, 0 kWh is used as zero-point
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "4",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "8.0"  # 0 EUR + (4-0) kWh * 2 EUR/kWh = 8 EUR
    assert state.attributes[ATTR_LAST_RESET] != last_reset_cost_sensor
    last_reset_cost_sensor = state.attributes[ATTR_LAST_RESET]

    # Energy use bumped to 10 kWh
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "10",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "20.0"  # 8 EUR + (10-4) kWh * 2 EUR/kWh = 20 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 38.0


@pytest.mark.parametrize(
    ("initial_energy", "initial_cost"), [(0, "0.0"), (None, "unknown")]
)
@pytest.mark.parametrize(
    ("price_entity", "fixed_price"), [("sensor.energy_price", None), (None, 1)]
)
@pytest.mark.parametrize(
    ("usage_sensor_entity_id", "cost_sensor_entity_id", "flow_type"),
    [
        ("sensor.energy_consumption", "sensor.energy_consumption_cost", "flow_from"),
        (
            "sensor.energy_production",
            "sensor.energy_production_compensation",
            "flow_to",
        ),
    ],
)
@pytest.mark.parametrize("energy_state_class", ["total", "measurement"])
async def test_cost_sensor_price_entity_total(
    frozen_time,
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    hass_ws_client: WebSocketGenerator,
    entity_registry: er.EntityRegistry,
    initial_energy,
    initial_cost,
    price_entity,
    fixed_price,
    usage_sensor_entity_id,
    cost_sensor_entity_id,
    flow_type,
    energy_state_class,
) -> None:
    """Test energy cost price from total type sensor entity."""

    def _compile_statistics(_):
        with session_scope(hass=hass) as session:
            return compile_statistics(
                hass, session, now, now + timedelta(seconds=0.17)
            ).platform_stats

    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: energy_state_class,
    }

    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_from"
            else [],
            "flow_to": [
                {
                    "stat_energy_to": "sensor.energy_production",
                    "stat_compensation": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_to"
            else [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    now = dt_util.utcnow()
    last_reset = dt_util.utc_from_timestamp(0).isoformat()
    last_reset_cost_sensor = now.isoformat()

    # Optionally initialize dependent entities
    if initial_energy is not None:
        hass.states.async_set(
            usage_sensor_entity_id,
            initial_energy,
            {**energy_attributes, "last_reset": last_reset},
        )
    hass.states.async_set("sensor.energy_price", "1")

    await setup_integration(hass)

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == initial_cost
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    if initial_cost != "unknown":
        assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    # Optional late setup of dependent entities
    if initial_energy is None:
        hass.states.async_set(
            usage_sensor_entity_id,
            "0",
            {**energy_attributes, "last_reset": last_reset},
        )
        await hass.async_block_till_done()

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "0.0"
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    entry = entity_registry.async_get(cost_sensor_entity_id)
    assert entry
    postfix = "cost" if flow_type == "flow_from" else "compensation"
    assert entry.unique_id == f"{usage_sensor_entity_id}_grid_{postfix}"
    assert entry.hidden_by is er.RegistryEntryHider.INTEGRATION

    # Energy use bumped to 10 kWh
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "10",
        {**energy_attributes, "last_reset": last_reset},
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 0 EUR + (10-0) kWh * 1 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Nothing happens when price changes
    if price_entity is not None:
        hass.states.async_set(price_entity, "2")
        await hass.async_block_till_done()
    else:
        energy_data = copy.deepcopy(energy_data)
        energy_data["energy_sources"][0][flow_type][0]["number_energy_price"] = 2
        client = await hass_ws_client(hass)
        await client.send_json({"id": 5, "type": "energy/save_prefs", **energy_data})
        msg = await client.receive_json()
        assert msg["success"]
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 10 EUR + (10-10) kWh * 2 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Additional consumption is using the new price
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14.5",
        {**energy_attributes, "last_reset": last_reset},
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "19.0"  # 10 EUR + (14.5-10) kWh * 2 EUR/kWh = 19 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 19.0

    # Energy sensor has a small dip
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14",
        {**energy_attributes, "last_reset": last_reset},
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "18.0"  # 19 EUR + (14-14.5) kWh * 2 EUR/kWh = 18 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Energy sensor is reset, with initial state at 4kWh, 0 kWh is used as zero-point
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    last_reset = dt_util.utcnow()
    hass.states.async_set(
        usage_sensor_entity_id,
        "4",
        {**energy_attributes, "last_reset": last_reset},
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "8.0"  # 0 EUR + (4-0) kWh * 2 EUR/kWh = 8 EUR
    assert state.attributes[ATTR_LAST_RESET] != last_reset_cost_sensor
    last_reset_cost_sensor = state.attributes[ATTR_LAST_RESET]

    # Energy use bumped to 10 kWh
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "10",
        {**energy_attributes, "last_reset": last_reset},
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "20.0"  # 8 EUR + (10-4) kWh * 2 EUR/kWh = 20 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 38.0


@pytest.mark.parametrize(
    ("initial_energy", "initial_cost"), [(0, "0.0"), (None, "unknown")]
)
@pytest.mark.parametrize(
    ("price_entity", "fixed_price"), [("sensor.energy_price", None), (None, 1)]
)
@pytest.mark.parametrize(
    ("usage_sensor_entity_id", "cost_sensor_entity_id", "flow_type"),
    [
        ("sensor.energy_consumption", "sensor.energy_consumption_cost", "flow_from"),
        (
            "sensor.energy_production",
            "sensor.energy_production_compensation",
            "flow_to",
        ),
    ],
)
@pytest.mark.parametrize("energy_state_class", ["total"])
async def test_cost_sensor_price_entity_total_no_reset(
    frozen_time,
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    hass_ws_client: WebSocketGenerator,
    entity_registry: er.EntityRegistry,
    initial_energy,
    initial_cost,
    price_entity,
    fixed_price,
    usage_sensor_entity_id,
    cost_sensor_entity_id,
    flow_type,
    energy_state_class,
) -> None:
    """Test energy cost price from total type sensor entity with no last_reset."""

    def _compile_statistics(_):
        with session_scope(hass=hass) as session:
            return compile_statistics(
                hass, session, now, now + timedelta(seconds=1)
            ).platform_stats

    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: energy_state_class,
    }

    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_from"
            else [],
            "flow_to": [
                {
                    "stat_energy_to": "sensor.energy_production",
                    "stat_compensation": None,
                    "entity_energy_price": price_entity,
                    "number_energy_price": fixed_price,
                }
            ]
            if flow_type == "flow_to"
            else [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    now = dt_util.utcnow()
    last_reset_cost_sensor = now.isoformat()

    # Optionally initialize dependent entities
    if initial_energy is not None:
        hass.states.async_set(
            usage_sensor_entity_id,
            initial_energy,
            energy_attributes,
        )
    hass.states.async_set("sensor.energy_price", "1")

    await setup_integration(hass)

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == initial_cost
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    if initial_cost != "unknown":
        assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    # Optional late setup of dependent entities
    if initial_energy is None:
        hass.states.async_set(
            usage_sensor_entity_id,
            "0",
            energy_attributes,
        )
        await hass.async_block_till_done()

    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "0.0"
    assert state.attributes[ATTR_DEVICE_CLASS] == SensorDeviceClass.MONETARY
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor
    assert state.attributes[ATTR_STATE_CLASS] == SensorStateClass.TOTAL
    assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"

    entry = entity_registry.async_get(cost_sensor_entity_id)
    assert entry
    postfix = "cost" if flow_type == "flow_from" else "compensation"
    assert entry.unique_id == f"{usage_sensor_entity_id}_grid_{postfix}"
    assert entry.hidden_by is er.RegistryEntryHider.INTEGRATION

    # Energy use bumped to 10 kWh
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "10",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 0 EUR + (10-0) kWh * 1 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Nothing happens when price changes
    if price_entity is not None:
        hass.states.async_set(price_entity, "2")
        await hass.async_block_till_done()
    else:
        energy_data = copy.deepcopy(energy_data)
        energy_data["energy_sources"][0][flow_type][0]["number_energy_price"] = 2
        client = await hass_ws_client(hass)
        await client.send_json({"id": 5, "type": "energy/save_prefs", **energy_data})
        msg = await client.receive_json()
        assert msg["success"]
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "10.0"  # 10 EUR + (10-10) kWh * 2 EUR/kWh = 10 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Additional consumption is using the new price
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14.5",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "19.0"  # 10 EUR + (14.5-10) kWh * 2 EUR/kWh = 19 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 19.0

    # Energy sensor has a small dip
    frozen_time.tick(TEST_TIME_ADVANCE_INTERVAL)
    hass.states.async_set(
        usage_sensor_entity_id,
        "14",
        energy_attributes,
    )
    await hass.async_block_till_done()
    state = hass.states.get(cost_sensor_entity_id)
    assert state.state == "18.0"  # 19 EUR + (14-14.5) kWh * 2 EUR/kWh = 18 EUR
    assert state.attributes[ATTR_LAST_RESET] == last_reset_cost_sensor

    # Check generated statistics
    await async_wait_recording_done(hass)
    all_statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
    statistics = get_statistics_for_entity(all_statistics, cost_sensor_entity_id)
    assert statistics["stat"]["sum"] == 18.0


@pytest.mark.parametrize(
    ("energy_unit", "factor"),
    [
        (UnitOfEnergy.WATT_HOUR, 1000),
        (UnitOfEnergy.KILO_WATT_HOUR, 1),
        (UnitOfEnergy.MEGA_WATT_HOUR, 0.001),
        (UnitOfEnergy.GIGA_JOULE, 0.001 * 3.6),
    ],
)
async def test_cost_sensor_handle_energy_units(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    energy_unit,
    factor,
) -> None:
    """Test energy cost price from sensor entity."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: energy_unit,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": None,
                    "number_energy_price": 0.5,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    # Initial state: 10kWh
    hass.states.async_set(
        "sensor.energy_consumption",
        10 * factor,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "0.0"

    # Energy use bumped by 10 kWh
    hass.states.async_set(
        "sensor.energy_consumption",
        20 * factor,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "5.0"


@pytest.mark.parametrize(
    ("price_unit", "factor"),
    [
        (f"EUR/{UnitOfEnergy.WATT_HOUR}", 0.001),
        (f"EUR/{UnitOfEnergy.KILO_WATT_HOUR}", 1),
        (f"EUR/{UnitOfEnergy.MEGA_WATT_HOUR}", 1000),
        (f"EUR/{UnitOfEnergy.GIGA_JOULE}", 1000 / 3.6),
    ],
)
async def test_cost_sensor_handle_price_units(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    price_unit,
    factor,
) -> None:
    """Test energy cost price from sensor entity."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    price_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: price_unit,
        ATTR_STATE_CLASS: SensorStateClass.MEASUREMENT,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": "sensor.energy_price",
                    "number_energy_price": None,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    # Initial state: 10kWh
    hass.states.async_set("sensor.energy_price", "2", price_attributes)
    hass.states.async_set(
        "sensor.energy_consumption",
        10 * factor,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "0.0"

    # Energy use bumped by 10 kWh
    hass.states.async_set(
        "sensor.energy_consumption",
        20 * factor,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "20.0"


async def test_cost_sensor_handle_late_price_sensor(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
) -> None:
    """Test energy cost where the price sensor is not immediately available."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    price_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: f"EUR/{UnitOfEnergy.KILO_WATT_HOUR}",
        ATTR_STATE_CLASS: SensorStateClass.MEASUREMENT,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": "sensor.energy_price",
                    "number_energy_price": None,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    # Initial state: 10kWh, price sensor not yet available
    hass.states.async_set("sensor.energy_price", "unknown", price_attributes)
    hass.states.async_set(
        "sensor.energy_consumption",
        10,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "0.0"

    # Energy use bumped by 10 kWh, price sensor still not yet available
    hass.states.async_set(
        "sensor.energy_consumption",
        20,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "0.0"

    # Energy use bumped by 10 kWh, price sensor now available
    hass.states.async_set("sensor.energy_price", "1", price_attributes)
    hass.states.async_set(
        "sensor.energy_consumption",
        30,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "20.0"

    # Energy use bumped by 10 kWh, price sensor available
    hass.states.async_set(
        "sensor.energy_consumption",
        40,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "30.0"

    # Energy use bumped by 10 kWh, price sensor no longer available
    hass.states.async_set("sensor.energy_price", "unknown", price_attributes)
    hass.states.async_set(
        "sensor.energy_consumption",
        50,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "30.0"

    # Energy use bumped by 10 kWh, price sensor again available
    hass.states.async_set("sensor.energy_price", "2", price_attributes)
    hass.states.async_set(
        "sensor.energy_consumption",
        60,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == "70.0"


@pytest.mark.parametrize(
    "unit",
    [UnitOfVolume.CUBIC_FEET, UnitOfVolume.CUBIC_METERS],
)
async def test_cost_sensor_handle_gas(
    setup_integration, hass: HomeAssistant, hass_storage: dict[str, Any], unit
) -> None:
    """Test gas cost price from sensor entity."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: unit,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "gas",
            "stat_energy_from": "sensor.gas_consumption",
            "stat_cost": None,
            "entity_energy_price": None,
            "number_energy_price": 0.5,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    hass.states.async_set(
        "sensor.gas_consumption",
        100,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.gas_consumption_cost")
    assert state.state == "0.0"

    # gas use bumped to 10 kWh
    hass.states.async_set(
        "sensor.gas_consumption",
        200,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.gas_consumption_cost")
    assert state.state == "50.0"


async def test_cost_sensor_handle_gas_kwh(
    setup_integration, hass: HomeAssistant, hass_storage: dict[str, Any]
) -> None:
    """Test gas cost price from sensor entity."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "gas",
            "stat_energy_from": "sensor.gas_consumption",
            "stat_cost": None,
            "entity_energy_price": None,
            "number_energy_price": 0.5,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    hass.states.async_set(
        "sensor.gas_consumption",
        100,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.gas_consumption_cost")
    assert state.state == "0.0"

    # gas use bumped to 10 kWh
    hass.states.async_set(
        "sensor.gas_consumption",
        200,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.gas_consumption_cost")
    assert state.state == "50.0"


@pytest.mark.parametrize(
    ("unit_system", "usage_unit", "growth"),
    [
        # 1 cubic foot = 7.47 gl, 100 ft3 growth @ 0.5/ft3:
        (US_CUSTOMARY_SYSTEM, UnitOfVolume.CUBIC_FEET, 374.025974025974),
        (US_CUSTOMARY_SYSTEM, UnitOfVolume.GALLONS, 50.0),
        (METRIC_SYSTEM, UnitOfVolume.CUBIC_METERS, 50.0),
    ],
)
async def test_cost_sensor_handle_water(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    unit_system,
    usage_unit,
    growth,
) -> None:
    """Test water cost price from sensor entity."""
    hass.config.units = unit_system
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: usage_unit,
        ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "water",
            "stat_energy_from": "sensor.water_consumption",
            "stat_cost": None,
            "entity_energy_price": None,
            "number_energy_price": 0.5,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    hass.states.async_set(
        "sensor.water_consumption",
        100,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.water_consumption_cost")
    assert state.state == "0.0"

    # water use bumped to 200 ft³/m³
    hass.states.async_set(
        "sensor.water_consumption",
        200,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.water_consumption_cost")
    assert float(state.state) == pytest.approx(growth)


@pytest.mark.parametrize("state_class", [None])
async def test_cost_sensor_wrong_state_class(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    caplog: pytest.LogCaptureFixture,
    state_class,
) -> None:
    """Test energy sensor rejects sensor with wrong state_class."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: state_class,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": None,
                    "number_energy_price": 0.5,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    hass.states.async_set(
        "sensor.energy_consumption",
        10000,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == STATE_UNKNOWN
    assert (
        f"Found unexpected state_class {state_class} for sensor.energy_consumption"
        in caplog.text
    )

    # Energy use bumped to 10 kWh
    hass.states.async_set(
        "sensor.energy_consumption",
        20000,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == STATE_UNKNOWN


@pytest.mark.parametrize("state_class", [SensorStateClass.MEASUREMENT])
async def test_cost_sensor_state_class_measurement_no_reset(
    setup_integration,
    hass: HomeAssistant,
    hass_storage: dict[str, Any],
    caplog: pytest.LogCaptureFixture,
    state_class,
) -> None:
    """Test energy sensor rejects state_class measurement with no last_reset."""
    energy_attributes = {
        ATTR_UNIT_OF_MEASUREMENT: UnitOfEnergy.KILO_WATT_HOUR,
        ATTR_STATE_CLASS: state_class,
    }
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "grid",
            "flow_from": [
                {
                    "stat_energy_from": "sensor.energy_consumption",
                    "stat_cost": None,
                    "entity_energy_price": None,
                    "number_energy_price": 0.5,
                }
            ],
            "flow_to": [],
            "cost_adjustment_day": 0,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    hass.states.async_set(
        "sensor.energy_consumption",
        10000,
        energy_attributes,
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == STATE_UNKNOWN

    # Energy use bumped to 10 kWh
    hass.states.async_set(
        "sensor.energy_consumption",
        20000,
        energy_attributes,
    )
    await hass.async_block_till_done()

    state = hass.states.get("sensor.energy_consumption_cost")
    assert state.state == STATE_UNKNOWN


async def test_inherit_source_unique_id(
    setup_integration,
    hass: HomeAssistant,
    entity_registry: er.EntityRegistry,
    hass_storage: dict[str, Any],
) -> None:
    """Test sensor inherits unique ID from source."""
    energy_data = data.EnergyManager.default_preferences()
    energy_data["energy_sources"].append(
        {
            "type": "gas",
            "stat_energy_from": "sensor.gas_consumption",
            "stat_cost": None,
            "entity_energy_price": None,
            "number_energy_price": 0.5,
        }
    )

    hass_storage[data.STORAGE_KEY] = {
        "version": 1,
        "data": energy_data,
    }

    source_entry = entity_registry.async_get_or_create(
        "sensor", "test", "123456", suggested_object_id="gas_consumption"
    )

    hass.states.async_set(
        "sensor.gas_consumption",
        100,
        {
            ATTR_UNIT_OF_MEASUREMENT: UnitOfVolume.CUBIC_METERS,
            ATTR_STATE_CLASS: SensorStateClass.TOTAL_INCREASING,
        },
    )

    await setup_integration(hass)

    state = hass.states.get("sensor.gas_consumption_cost")
    assert state
    assert state.state == "0.0"

    entry = entity_registry.async_get("sensor.gas_consumption_cost")
    assert entry
    assert entry.unique_id == f"{source_entry.id}_gas_cost"
    assert entry.hidden_by is er.RegistryEntryHider.INTEGRATION
